Combined typewriting and computing



May 3, 1938. OTHIEME COMBINED TYPEWRITING AND COMPUTING MACHINE a sheets-sheet 1 Original Filed July 50, 1931 lNVE NTOR= May 3, 1938. o. THIEME COMBINED TYPEWRITING AND COMPUTING MACHINE Original'Filed July 30, 1931 3 Sheets-Sheet 2 UIFIIEIIIEIIH ENE! ATTOR Y;

y 3, 1933- o. THIEME 2,115,922

COMBINED TYPEWRITING AND COMPUTING MACHINE Original Filed July 50, 1931 3 Sheets-Sheet 3 7 3 'FIGJB.

INVENTOR Patented May 3, 1938 MACHINE Otto Thieme, Hartford, Conn., assignor, by

mesne assignments,

to Underwood Elliott Fisher Company, New York, N. Y., a corporation of Delaware Application July 30, 1931, Serial No. 553,937 Renewed September 16, 1936 I .27 Claims.

ferential indexing mechanism, which is driven by thekeys.

In a machine of this type, it has been proposed to fix a second master wheel upon the drive-shaft, and to swing one of the totalizers into and out of mesh with the second master wheel; butthis is open to objection, as it is inconvenient to mount andadjustthe totalizer. It has also been proposed to connect the second master wheel by a clutch to the first master wheel, but this necessitated looseness of connection, lateral play, and complication of action; and room in this class of machines is too restricted for a clutch.

According to one of the features of the present improvementsfa secondmaster wheel is rendered available at will without incurring any of the foregoing objections. The totallzer is mounted rigidly and adjustably upon the truck, like other totalizers. The secondmaster wheel is rigidly connected to the first to rotate therewith, without play or backlash or side-shake. This result is obtained by mounting the second master wheel upon a separate shaft-section, which abuts end to end against the shaft of the main master wheel, the

second shaft-section being connected by a univertion and operation, and highly emcient in practice.

One novel feature is that the aligner is normally in its eifective position; and advantage is taken of this feature to shorten the aligning bar inaterially, so that it needs only to be long enough to span three or four of the denominational gears in the totalizer; and hence the aligner is more easily operated, and does not appreciably burden the numeral-keys of the typewriter.

Since the aligning bar or tooth stands normally in effective position within the notches of the totalizer-wheels, it results that when the carriageis moved by hand in either direction, the aligner tooth or bar engages successively the teeth of all wheels that pass by it.

The aligner-baris automatically dropped from the wheels in order to permit them to be operable by the usual carry-over mechanism.

The aligner-bar must rise to effective position promptly, and for this stroke it is controlled by a rack on the carriage or ,truck.

There is also a device provided for holding the aligner-bar in mesh with the teeth normally in-' dependently of said rack, so that the carriage may move without vibrating the aligner-bar.

Another feature is in the nature of an interlock between the mechanism which silences the second master wheel and the diflerential mechanism which rotates the master wheel, so that simul: taneous operation of both mechanisms cannot occur. Another feature of the invention overcomes the difflculty found in the two-armed key-lever which has been heretofore employed for shifting the machine between addition and subtraction. The usual two-armed lever is depressible at either end by downward motion of the finger of the operator, and it is also liftable at either end by upward motion of the finger. of the machine, it is found'that-the'operator is apt to move this lever unconsciously and accidentally, thereby changing the state of computation without knowing about it; and hence errors arise in the computation which are difficult to'trace. One of the features of the in- In manipulation vention is the employment of means to avoid these accidents, and for this purpose there are employed addition and subtraction keys which are in the form of studs that slide in holes in the. fixed frame of the machine, and can only be operated by pushing them back, so that no upward or downward or lateral movements of the fingers of the operator can cause accidental or unconscious shifting of the machine to addition or subtraction. 1

Other features and advantages will hereinafter appear.

In the accompanying i wings,

Figure 1 is a front perspective view of the indexing mechanism with its enclosing frame broken away, showing a drive-shaft having two master gears coupled thereon, shown in mesh with the gears of two totalizers carried side by side upon a truck, and means to silence one master gear at will.

Figure 2 is a fragmentary view, in perspective, of the main master gear and connections.

Figure 3 is a perspective view, from the front, of portions of the key-operated indexing mechanism and the alignment of the gears in two adjoining totalizers.

Figure 4 illustrates an interlock to prevent the operation of the master-gear-indexing mechanism by the numeral-keys, until the master-gearshifting mechanism has disabled the gear.

Figure 5 is a vertical cross-section through a totalizer and the indexing frame, showing parts in normal positions.

Figure 6 is a view similar to Figure 5, showing other parts positioned by the initial depression of a numeral-key.

Figure 7 shows the same parts as Figure 8, according to the normal settings of Figure 5.

Figure 8 shows parts interlocking with the rack of tle totalizer-truck under the setting of Figure Figure 9 is a sectional front view of three totalizers, flexibly coupled master gears, their indexing connections, shifting means to change the direction of rotation for the gears, and mechanism shifted to disable the second master gear.

Figures 10 and 11 show details of constructing the universal joint in the master-gear shaft.

Figure 12 is a top view of a section of the indexing frame, showing the assemblage of two adjoining aligning bars for the totalizers.

Figure 13 is a sectional side elevation showing the positions of certain connected parts of mechanisms after a type-bar has been driven against the platen and recoiled to the full-line position, during which operation there is a release of the carriage-holding dog, and the carriage-stepping dog becomes efiective. The letter-feed movement of the carriage forces the aligning bar into and out of engagement with the teeth of the totalizer-gears.

Figure 14 is a diagrammatic front elevation showing steps of operation that have taken place in Figure 13 while the carriage letter spaces.

Figure 15 illustrates the manner of releasing the normally locked register-gears and the master gears upon the initial depression of a key and before motion has been transmitted to the master gears.

Figure 16 shows the dog-operating lever of Figure 15, modified to meet the requirements for a second mastergear and a second gear-aligning means for the cross-totalizer.

The machine includes the usual Underwood typewriting mechanism, an indexing mechanism operated by the numeral-keys of the typewriter, and totalizers mounted upon a truck, secured to travel with the carriage of the typewriter to be operated by a stationary master gear driven by the indexing mechanism.

The typewriting mechanism may include numeral-keys 20, attached to levers 2| fulcrumed upon rod 22 and held up by springs 23. Each key-lever may have a stud 24 to engage a slot 25 in the short arm of a bell-crank 26 fulcrumed at 21, the upper free end having a stud 28 projecting into a slot 29 in type-bar 30. The latter is tulcrumed at 3|, and provided with types 32 to be thrown against platen 33, when a key is dcpressed. The platen 33 may be rotatably mounted in carriage 34 having a roller 35 running upon a stationary front rail 36, and a pair of rear lugs 31 sliding upon a stationary rod 38.

The carriage 34 may be propelled by springrnotor 39, the letter-spacing being controlled by a carriage-driven toothed wheel 40, and escapement-dogs ll controlled by a universal bar 42 actuated by the type-bars.

The typewriter-carriage 34 is connected by arms 43 to a truck 44, including a grooved bar 45 running upon rolls 4G in a raceway provided in upper edge of a track-bar 41 secured to the machine-frame above the keys 20. To prevent displacement of the rail 45, a center roller II is journaled on a bracket 49 that is secured to bar 41, the roll bearing upon the flat top face of the rail 55, in line with the main master wheel.

A plate 58, having beveled upper and lower edges to form ways for the assembly and adjustment of a series of totalizers 5i, hanging thereon, is wcured to the front of truck-bar 45.

Each totalizer has a bottom roll 52 traveling within a channel-rail 53 secured to the upper front of the indexing frame 54, for supporting both the totalizer and the truck.

i'he truck 44 may also have a totalizer-locating rack-bar 55 which is adjustably secured to the rear lower face of the hanger-plate 50. The teeth of the rack have letter-space pitch, and the rack is formed with a longitudinal ledge 55 to slide under an adjacent working face or ledge out along the bar 41, to further steady the truck.

Each totalizer or unit 5i includes registering wheels 517, idler gears 58, carrying gears 59, starwheels 66 and series of controlling levers 6|.

As a totalizer 5| passes through a'computlng Zone, the gears 59, beginning with the highest denomination, mesh seriatim with a main master gear 63, which is rotated by the indexing mechanism operated by the numeral-keys. Proper meshing of the gears 59 with the master gear is insured by an aligning tooth 62 that is secured to the frame 54 adjacent the main master gear 63.

The indexing frame 54 includes brackets 54, E55, 56, 61, and 68, all fixed to the track-bar I! and joined together along the front by a tiebar 59. Upon or within this frame are mounted all the actuating mechanisms to rotate the master gear. The entire device is assembled as a unit to the typewriter frame.

Each numeral-key l to 9 has a connection 10 to one of a series of indexing cam-arms II, mounted upon a stationary rod 12 and provided with individual restoring springs I3, and having differentiated individual cam-slots 14 to engage wrists 15 upon crank-arms 16. The latter are fixed to a rock-shaft 'll,.journaled in the two end brackets 54 and 68. The differential camslots 14 are formed as eccentrics to shaft TI,

and they vary in eccentricity, so that from uniform operations of the numeral-keys 1 to 9, differentiated rocking motions are transmitted to the shaft 11, corresponding to the computativ values of the numeral-keys depressed.

Secured to the indexing shaft 11 is a masterwheel-driving arm I8, see Figure 9, having a. long wrist 19 connected by a link 30 to a wrist 3| on a toothed sector 82, which rotates the masterwheel shaft and is mounted upon a short shaft 33 journaled in brackets 65 and 65'.

The sector may be slidden along said shaft 83, in changing from addition to subtraction, the

link 88 at the same time idly sliding along the wrist I8.' For this purpose, the gear-sector has a hub grooved at 84 to receivethe end of a pin 85 upon the end of a shifting arm 86 depending from a manipulable short shaft 81 having bearings in bar 41 and tie-bar 68. The shaft 81 also has an upright arm 88 with a wrist 88 engaging a back-gear 88 slidable along a shaft 8|, supported upon brackets 65 and 65.

The pinion 88 is connectible between the sector 82 and a pinion 82 that is fixed to a master-wheel shaft 82, to be driven forwardly or backwardly by the gear-sector 82. To effect 1: e simultaneous opposite shifting of the sector, and the pinion 88 by the arms 86 and 88, the "shaft 81, to which said arms are fast, may be ovided with a pin 83, connected by a link 84, passing through slot 85 in bracket 65, to an arm .86 of a three-armed bell-crank 81, fulcrumed upon a slotted stud 8I riveted to the rear face of the bar 68-. Y The arms 88 and 88 may be horizontal or parallel with bar 68, and their free ends may be pivotally connected to key-stems I88 and IN that pass through suitable bearing holes in the bar 68 and project forwardly from said bar, the rods being designated as S for substraction and A for addition.

When the 'A-rod key is pressed back, the shaft 81 and the two crank-arms 86 and 88 are rocked to shift the gear-sector 82 sidewise into mesh with pinion 82. At this time the back-pinion 88 is idle, and the master-wheel shaft 82 rotates in the direction for addition.

When the S key I88 is pressed, the shaft 81 and arms 86 and 88 will shift the sector 82 laterally out of mesh with pinion 82 and into train with .the back-pinion 88. Moreover the latter is at the same time shifted into mesh with the master-shaft pinion82. The shaft 82 will rotate reversely for subtraction.

Each of these positions of the shaft 81 may be maintained by a dete'nt-arm I82 fast to the shaft and engageable with notches I88 in the rear of bar 68.

The three-armed bell-crank has opposite arms to which forwardly-extending sliding key-heads are pivoted, said bell-crank being pivoted to swing in a horizontal plane, and the guide 68 in front of said bell-crank supports said sliding key-heads. The bell-crank has a midway arm connected to shift the addition and subtraction train; The key-heads I88, I8I are inoperable by downward, upward or lateral movements of the fingers, whereby the heretofore existing liability of accidental shifting of the subtraction-setting train is overcome, and mistakes in computation are,

avoided.

As shown in Figure 1, the master-wheel shaft 82 may have bearings in the brackets 65 and 66, and between the two brackets the pinion 82' may be arranged with spacing hubs I84 to rotate freely upon the shaft 82, one hub being formed with a toothed clutch-member I85. A clutch-member I86 is also loose upon the shaft 82, and has two or more teeth that are diametrically opposite, said teeth interlocking with the teeth of the member I85 when I86 is shifted along the shaft 82.

The shiftable clutch-member I86 may be joined by a hub to a head III! that has one or more projecting splines I 88 that slide within peripheral notches formed in a companion head I88 that is fast to master-wheel shaft 82. when the clutchmember I86 is shifted leftward from Figure 1 into mesh with member I85, the splines I88 will slip idlylthrough the notches in head I88, but will not become disconnected therefrom, so that, when double-acting spring 4 (Figure 12), but it may be rocked'to the position at Figure 15 by the initial. swing of the tongue I I I, as the associated differential cam I4 is about to vibrate the wrist 15 to rock the index-shaft 11.

The rocking of the shaft H3 operates a train of parts to shift the clutch-member I86 into interlock with the toothed clutch-member I85, so that, when the index-shaft 11 rotates the pinion 82, the master gear 63 will be driven by the pinion until the end of the shoe I II rides off from dog II2, whereupon the shaft H3 is restored by H3, having bearings in brackets 64 and 68. This shaft is normally held in midway position by a the spring I I4, so that the member I86 withdraws from I85 at the end of the downward stroke of the numeral-key. The train of mechanism between the shaft H3 and the sliding clutch-member I86 may be substantially the same as disclosed in my pending application, Serial No. 468,175, filed July 15, 1930 (now Patent No; 2,020,340, dated November 12, 1935).

Each indexing arm II is formed with fine peripheral teeth that engage pawls II 5 to rock a tensioned shaft H6, and also operate as individual full-stroke devices for each arm II, in oppo-' site directions.

The index-arms I6 are arranged in a row along the shaft 11. The rocking of the shaft may flex a returning spring I I1, and the return of the shaft may be terminated by a pin II8 engaging a stopscrew II8, Figure 3.

In order to permit disassembling of the master wheel 63 and its shaft 82 and other parts from the machine as a unit, the bracket 66 may be provided with an open slot or groove I28, Figure 1, and the shaft 82 may have a bearing hole in a keeper I2I that is secured to the face of the bracket 66 by a screw I22. It will be understood that there is a bottom bearing in the bracket 66 for the shaft to rest upon, and that the keeper I2I prevents dislodgment of the shaft until the screw I22 is first removed. A second master wheel I23 is operable in unison with the master wheel 63, so that two totalizers may be operated at once.

Provision is made for disabling the second master wheel without disconnecting it from the To'this end, the mes main master-wheel shaft. ter-wheel shaft and theisecond shaft may consist of two sections connected end to end by a universal joint. One end of the second shaft has an up-and-down movement to clear the second may be required.

To the end of the main master shaft 82, at the -drilling these holes in a direction longitudinallyof. the shaft is shown at Figure 10. The holes I28 formed in the part I25 combine with those in master wheel from the gears on the carriage, as

I26-I2I, to serve as raceways. The parts may be assembled, as shown in Figure 9, with four driving balls I30 held in the four holes I29 by a washer I3I placed over hub I26 and against the inner face of the head I21. The washer fits upon the hub and covers the holes I29 to prevent the balls from escaping. In this manner is built up a universaljoint I33 between the main master-wheel shaft and the shaft-section I28 carrying the second master wheell23.

Shaft-section I28 may be formed with a ballshaped end I34 (Figure 9), housed within a bearing I35 in the inner end I35 of a swing-rod I3ll,

the bearing I35 containing a ball I38 to bear against the shaft-end I34 to prevent endwise displacement. The adjoining ends of the shaft-sections 92 and I28 may be rounded as shown, to permit the shaft-section I28 to rise and fall freely, but there is no endwise play of shaft I28 or its master wheel I23 when the latter is elevated.

The housing I36 on rod I3'I may be guided in a vertical slot I39 in bracket 51. The outer end of rod'I3'I may be aligned with the shaft 92 by means of a ball-and-socket fitting I49 with the bracket 68. A jack-screw MI is tapped into the end of rod IN, and locked by nut I42 after the rod has been adjusted closely between the bracket 58 and the end I34 of shaft-section I28.

The rod I31 may have a V-groove I43 for a roller I44 which occupies the groove when the rod is down. The roller I44 is rigidly mounted on a slide I45 to shift it along the rod I3? and cause it to ride out of the groove I43 to lift the housing I85 of the rod I3'I and thereby raise the second master wheel I23 to operative position for meshing with the gears 59 and to lock the master wheel in this position. The roller I44 has an eccentric stud I46 whereby it is adjustably mounted on the slide I45 with respect to the rod I3I. The slide I45 may be carried upon the reduced ends of two studs I4'I. These studs enter slots I48 in the slide,

. and are secured to the inner face of tie-bar E8.

The slide I45 may also have a finger-piece I49 passing through a slot I58 in bar 69, and manually operable between two positions, which may be marked S and D, toindicate that a single master gear or the double master gears are in train with their totalizers.

To retain the slide I45 at either of these S or D positions, notches I5I may be formed in the slide to be engaged by a V-detent I52 on an arm I55 swingable upon one stud I41 and under the tension of a spring I54 toward the notches.

It will be seen that the totalizer I24 may be rigidly secured to the carrying plate 50, the same as the other totalizers, while it may still remain connectible to and disconnectible from the second master wheel I23; so that there is no error in computation that might arise from loose mounting of the totalizer I24. It will also be seen that the master wheel I23 has no rotative play relatively to the master wheel 63, thereby avoiding the liability to errors, which would be apt tooccur when master wheels are clutched to a shaft by loose clutching connections. Therefore the operation of the totalizer I24 is equally accurate with the operation of the totalizer M. This result is secured by parts which are inexpensive and compact, and readily assembled in the restricted space of this class of machine. When the master wheel I23 is up, the shaft-sections are in line, and there is no endwise play of either shaft-section,

so that no liability of errors in computation arises, because of engagement of the master wheel I23 with the wrong gear of the totallzer.

The slide I45 may have a tongue or lug I55, Figure 4, and the rock-shaft I I6 may have a vertical stud I56. When the slide I45 is at either one of its two extreme positions, with the second master wheel I 23 up or down, the stud I56 will rock under the slide, at either side of lug I55, and block the reverse movement of slide I 45, as shown in Figure 6. The slide cannot be reversed before the rockshaft IIG has been released by the indexing cam I I at the end of the full down stroke of a numeralkey. The master wheel I 23 must therefore remain in mesh until the drive stroke of the key is completed. I 1 I During the shifting of the slide I45 in either direction, the lug I55 passes in rear of stud I 56, as shown at Figure 4, and prevents the rocking of the shaft II6 and the swinging of the indexing cam II and the depression of a numeral-key, until the slide I45 has made a full stroke in either one direction or the other. preventing measures are established in connection with the control of master gear I23.

Upon the rod I31 may be hung a ring or hook I5l, in which is caught a spring I58, see Figure 2, to draw the rod and master wheel I23 downward when released by sliding the mount I45 until the roller I44 enters the groove I43.

llhe spacing of the master wheels 68 and I23 is fixed for a minimum spacing between two adjoining totalizers, so that the master wheels will simultaneously engage gears 59 of the same denomination in the totalizers. Hence it is essential to locate the two totalizers accurately and positively with relation to each other upon the plate 58 of the truck.

To this end, two pointers I59 are provided on a plate I69, secured to the bracket 49 on the bar 41 by means of adjusting screws IIiI. The totalizers to be simultaneously actuated are arranged so that the pointers I59 indicate similar denominations on scales I62 of the totalizers 5I and I24, as shown at Figure 1.

The teeth of the denominational trains or gears 59 move through the teeth of the stationary master wheels as the carriage feeds. An aligning plow-tooth I63 may be secured to the framing close to each master wheel, to line up the teeth of the advancing totalizer-gears 59 for free passage through the teeth of the master wheels before the master wheels are rotated.

The highest gears 59 of the adjoining totalizers 5I and I24 first enter the driving fields oi the master wheels, and the travel of the carriage progresses until the gears 59 of lowest denomination have been operated. The series of gears 59 and their dials are apt to present a spiral arrangement, which is objectionable. In my prior application, filed June 18, 1928, Serial No. 286,218, (now Patent No. 1,971,544, dated August 28, 1934) a long aligning bar was provided to engage all the gears to align them after each computation set up in a totalizer. 'In my pending application, Serial No. 468,175, an aligning bar consists of two sections, each section having an individual control for a common end.

According to certain features of the present improvements, an aligning tooth or bar stands normally in effective position in the notches of totalizer-wheels. If the carriage is moved by hand in either direction, the aligner-bar engages successively the teeth of all wheels that pass by it. The aligner-bar needs to be only long enough to span four denominationa'namely, the four nextabove the one which is in engagement with the master wheel, thus making five wheels In this way, errora whose position is positively aligned. This is practically suiiicient, as the remaining wheels (of higher denominations) will become automatically aligned by said bar the next time that the carriage is returned to the right. The aligner-bar has to be dropped fromthe.

er-bar is in idle position during the main portion of the down-stroke oi the key.

It is desired, however, for the aligner-bar to rise promptly to eil'ective position at the initial part of the up stroke of the key. Accordingly the up stroke of the aligner-bar is controlled by means of a rack on the carriage, or on the totalizer truck. The carriage and truck start in motion promptly atthe first part of the up stroke of the key. The rack on the truck has a camming action upon the lever which carries the aligner-bar, and throws the aligner-bar into mesh promptly and before the key reaches the concluding portion of its up stroke. I

1 There is also a device provided, independently of said rack, for holding the aligner-bar in mesh with the key normally, so that the carriage and truck may be manipulated to the right or left freely, as may be required, without causing the allgner-bar to vibrate.

It will therefore be understood that instead of aligning the whole series of gears at the same time, and after the full computation has been enaligning bar is normally in a tooth-aligning posi-' tion, the movement of the carriage towards the right will bring into use the left-hand beveled end of the aligning bar constituting a second plowtooth to bring all the remaining gears into alignment.

To the bracket 66 may be secured a mount in theform of a stud I64, Figure 3, to support various levers which are retained by a screw threaded into the end of the stud, so that each lever may rock on the stud as required. Nearest to the bracket 66 is the first lever I65 of the assembly. This lever may include an arm I66 operable to vibrate seriatim the locking levers 6| in the totalizer, to free the gears 59. A second arm I61 may have dogging teeth I66.

The lever I65 is also formed with a tooth I65- that normally interlocks with teeth of master wheel 63. This tooth I65 is rocked out by the shaft II3 during the initial portion of the stroke of an indexing cam-arm H, to release the master extends forwardly and carries a long v-edged and V-pointed laterally-projecting tooth or aligning bar I10, operable to force its way between teeth of adjoining gears 59, to align them.

The lever I69 has a mount I1I. A lug I12 projects from the side of the lever. The mount I" has a screw I13 threaded therein to serve as a Jack-screw upon one arm I14 of a lever I15 that is also assembled upon the end of the mount I64, and is provided with "a roller I16 under the teeth of rack 55 on the truck 45. The levers I69 and I15 rock upon the mount I64, the lever I69 for aligning the gears 59, and the lever I15 for entering the spaces between the teeth of rack 55, to be j cammed out) by the teeth seriatim. The screw I13 is adjustable to determine accurately the proper relative positions of the aligning bar I10 and the roller I16.

7 The forward end of the aligning lever I 69 may be guided by an ear I11 thereon, working in a slot I16 in a plate I19 that is fixed to the rear face of channeled rail 53. The combined levers I69 and I15 vibrate freely upon stud I64, and the overhanging weight of lever I69 tends to depress the same and to throw the roller I16 up between the teeth of the rack 55. l

The rock-shaft 11, which is operated by each indexing cam-arm 1I may have a latch or a lever I60 loosely mounted thereon 'for a movement limited by a hole I6I therein engaging a stop-pin I62 on bracket 66. The latch I60 is operated in one direction by a spring I63, tending to force the latch I60 forward to the idle position at Figure 6..

.The shaft 11 may also have a special arm I65, Figure 3, secured thereto to support a mount I66 for a stop-screw I61, which is opposed to the action of spring I63. The stop-screw is engaged by the edge of the latch I60, Figure 5, so that the latch I60 will move to accompany the swing of the arm I65 until arrested by pin I62, Figure 6.

The latch I60 is formed with a round nose I66 to cam under the lug I12 of lever I66, and thereby lift said lever into the position at Figure 5, where the parts are shown in normal positions, with the beveled bar I10 aligning the teeth of gears 59;

and with the roller I16 withdrawn from the teeth of rack 55.

It may be observed that the shaft 1'1 and its. parts are restorable to normal rearward positions by the spring H1, which overpowers the spring I63, so that the screw I61 will operate to pick up the latch i60 from the idle position at Figure 6 and swing it to the effective position at Figure 5, by reason of the camming action of the ex-- tension I66 upon the lug I 12 of said latch.

This mechanism is described in connection with a regular totalizer 5|. The grand totalizer I24 is similar to 5!, and is operable by master wheel E23 at the same time. Duplicate parts are shown side by side, and are given similar numerals of reference. The shaft 11 carries two arms 365, each arm to operate a latch I60, which in turn operates a lever I69 to align simultaneously the gears 59 in the totalizers 5I and I24. Each lever I69 has a roller I16-to underlie the teeth of the rack 55, and the rollers simultaneously enter and leave the notches between the teeth of the rack. Each lever I65 carries a master dog to operate similar parts in the two totalizers 5| and I24, seriatim; but only onelever'needs to have the rack-dogging teeth I66 shown at Figure 12. One lever I65 may have the tooth I55 (Figure 15) to lock both master wheels. The levers I65 may have individual restoring springs I65.

The mode of operation is as follows: with the mechanism in normal position, as shown in Figures 1, 3 and 5, the aligning bars IIII are in effective positions for the gears 59, whether the totalizers 5| and I24 are in computing zones or not. Each aligner IIIl is beveled at both ends, so that it will plow between the teeth of the gears of all the totalizers when the carriage'runs to right or left; The shifter 9-445 holds both master gears 63 and I23 in horizontal alignment. The roller I16 and dogging teeth I88 stand normally withdrawn from the teeth of the rack 55 on the truck 44.

The carriage 34 is tabulated to a position when the two master wheels 63 and I23 will engage the gears 59 of highest denomination in the totalizers 5I and I24. The depression of a numeral-key 20, besides lifting the type-bar to print, vibrates its indexing cam-arm II from the position at Figure 5 to that at Figure 6, when the shaft I I3 is rocked by the cam-shoe I I I, to vibrate the two levers I65, and to vibrate their master dogs I66 to release the carryover mechanism of both totalizers, and vibrate the teeth I68 into carriage-holding interlock with the rack 55.

The same initial movement of the indexing arm H to the position at Figure 6, vibrates the shaft I I6 for the purpose of closing the clutch-members I05 and I06, thereby connecting the master gear 63 to be rotated by shaft 92, which will also rotate the shaft I28 and the master gear i23. Then shaft TI is rocked by the camming action of the slot 14 of the arm ii upon a stud 15. The initial rocking of the shaft Ti withdraws the stop-screws Ilii'hto release the latches 680 to permit their springs M3 to withdraw the noses ltd from under the lugs M2 on the two levers its, so that by the time rotation is transmitted to the master-gear-' shaft t2, the aligning teeth Hill will be withdrawn from the gears 59 of both totalizers 5i and MG.

The rollers lit on both levers [I69 will enter spaces between adjoining teeth on the racl; 55, to terminate the drop of said aligning levers.

The continued downward motion of the key gives rotation to the shaft 92, and rotates tooth master gears and E123, to accumulate the corresponding digital value upon the gears [39. Near the end of the down stroke of the isey, and after its movement has been transmitted to the master gears Hill and 023, the dog Hill of shaft M3 will ride of? the end oi the cam-shoe ill, and the reverse rotation of said shaft by a spring i65 will release the tooth viiiil to re-locl: master gear The dog M5 of shaft MO will ride off from the actuator M, to open the clutch-membersldh and tilt between the master gear 63 and the shaft Q2,

and levers 6i will be released by the master dogs 066, to restore the gears and the arm HGT! will withdraw the dogging teeth H68 from the racl;

At the end of the down stroke of the hey, a tooth oi the carriage-escapement-wheel l passes from stepping dog ill to holding dog ll of the escapement-roclzer H92; and the dog G90 steps to a iorward position, to intercept the next wheel-tooth, which advances when the key is released by the finger. in the Underwood escapement shown, there is practically no drop or lost motion from the face oi the stepping dog to the face of the holding dog; and the holding dog has a beveled face for the escapement-tooth to strilre and bear against under carriage-tension, to oppose the finger pressure upon the key.

Upon the release of the key by the finger, the escapement-tooth slides off from the bevel of the holding dog M, which is released to the carriagethus the carriage will be advanced one letterspace. This carriage-feed takes place as soon as the type-bar 30 has started back from the platen, Figure 13. At this time the stepping dog I9I has passed through the three positions indicated in full and dotted lines in Figure 14.

During this movement of carriage-feed rack I93 by the operation of the stepping dog, both rollers I76 that occupied the notches between two teeth of the rack 55 ride over the advancing teeth of the rack, first resting upon the faces of the two teeth as shown at Figure 14, and then dropping irom said two teeth into the spaces between the next teeth of the rack. In this manner, the carriage-feeding movement of the rack 55 will transmit movement through the rollers I16 to the two levers I69, to first raise the aligning bars I'IIl from their temporary idle positions at Figure 15 to efiective positions of Figure 13, to align the teeth of the gears 59 in both totalizers. Then they drop from positions at Figure 13 to Figure 15, all during the single letter-spacing movement of the rack 55.

It will be remembered that near the end of the down stroke of the key, both key-operated rockshafts M3 and H6 were released to be restored to normal positions, and their several connections such as the sector 82 have restored the pinion 92 and the two levers N55 to normal positions; but the two latches ltd are still unresponsive to the two levers H69, because the rock-shaft H is still under the control of the indexing arm ll held by the depressednumrahkey.

When the numeral-hey is fully restored, the two screws Bill will piclr up the latches Hill, to force their noses iiiii under the lugs lit, to raise the aligning hars into permanent aligning positions for the gears 59, where they remain until they are released by the'depression, of the next numeral-key. In this manner, the gears 59? in the operating totalizers are first aligned by the letter-spacing feed 01 the carriage and subsequently re-aligned upon the return of each numeral-key after the digit is computed.

The mechanism has been described according to the settings in Figure 1 for the joint use of two master gears for two adjacent totalizers. Should the character of the worlr require that a certain accumulation he omitted irom the total izer 920, the shifting of the control handle Mil from the position of Figure l. to that of Figure 9 will disable the master gear l and the totalizer i2 3 will therefore he silenced.

It will he understood that with the use oi. the state-controlling mechanism for reversing the direction of rotation for the master gear for addition or subtraction, a temporary subtractive computation may be had in the totalizer iii, and the grand totalizer may he controlled likewise.

Among other things, it will he noted that the invention includes two co-operative totalizers, two eo-op-erative master gears, two co-operative master dogs, and a single co-operative actuating mechanism operated by the numeral-keys in typing numbers; that the two master gears are positively connected to rotate in unison, one with the other; that one master gear is disabled, not by silencing the rotation thereof, nor by operating complicated and loosely constructed clutch-devices between a master gear and a totalizer, but by the simple operation of shifting the rotating master gear out of train with its totalizer, with- [ill ai'iaoaa out disturbing the correctness of the timing of the two master gears.

It will also'be observed that the aligner is operated while the type-key is on its return moveplished by providing that when the carriage escapes, the aligning bar is thrown into the teeth of the register-wheels; that use is made of the rack to vibrate a small roller and an arm, which is adjustably'connected to the aligning bar, so that when the rack is in motion the roller rides down and up under said rack-teeth and thereby swings the aligning bar up and down, to straighten the register-wheels; that in order to disengage said roller from the rack, so as to permit the carriage to be freely moved, a lug stud is mounted on one of the guide-links, to be latched up by a member on the indexing shaft, so that the link is normally latched in a position to elevate the aligner and hold the roller-arm depressed out of engagement with said rack; that as soon as a key is depressed, said lug is unlatched and permits the aligner to move down, and its rear arm to rock upwardly, to permit the small roller to engage the carriage-teeth; that this may take place upon the downward motion of the key; and that as soon as the key is released, the carriage escapes, permitting the aligner to straighten the register-wheels out, and then the lug is latched and said roller is rocked and held out of engagement with the rack.

It will also be noticed that the two registers need not be positioned either too far apart or too near' each other, since a bracket is provided with a pair of marks which must be in alignment with the marks provided on the registers;

' It is also seen that the second master wheel can be readily moved into or out of effective position, by reason of the universal joint, which eliminates both side play and backlash of said master wheel; that the universal joint reduces the quantity 015 parts necessary, and is also compact; and that it reduces lost motion or backlash clue to meshing clutches, gears, etc.; that the second master gear-shaft is provided with a ball end, as means of mounting the bearing in its or making adjustments in the end play in the clutch-shaft.

It will also be seen that in order to release'the master gear, a hand-pieceprojecting at the front of the machine is operated to the left; that this disconnect member is provided with a detent; that a safety-device prevents the master gear from being moved into or out of effective position, while a key is partly depressed; and that this safety-device consists of a square post, which operates with the full-stroke shaft and works in front of a projection on the disconnect-lever slide, preventing the movement of the latter to either right or left while the key is in motion. It will also be seen that the clutch-shaft center bearing is combined with an adding gear leader, made in one piece. This bearing is also provided with means for adjusting the same in respect to the master wheel to efl'ect relative alignment; and that the second master wheel is also provided with a leader,the latter having an adjustment.

Variations may be resorted to within the scope of. the invention, and portions of the improvements may be used without others:

Having thus described my invention, 1 claim:

1. The combination with indexing mechanism and a main master wheel, of a second master wheel connected by a universal joint to the main master wheel, and mounted to swing out of working position while ,so connected.

2. The combination with a set of computing gears for different denominations and key-controlled means to operate the same, of a gearaligner, a latch normally detaining said aligner in effective position, key-controlled means for withdrawing said latch to release said aligner preparatory to operation of the gears, and means for restoring the aligner and the latch in advance of the full return of the key to normal position.'

3. The combination with a set of computing gears of different denominations and key-controlled means to operate the same, of a gearaligner normally in effective position, key-controlled means for releasing said aligner prepara- I operated by said carriage for restoring the aligner in advance of the full return of the key to normal position, said key-controlled aligner-releasing means effective for latching the aligner in normal gear-engaging position and out of control of said rack at said full return of the key.

5. The combination with indexing mechanism and a main master wheel, of a'second master wheel connected by a universal joint to the main master wheel, and mounted to swing out of working position while so connected, means for swinging said second master wheel to idle position, and an interlocking train between the indexing mechanism and the second master wheel to prevent simultaneous operation of the indexing mechanism and the wheel-swinging means.

6. The combination with indexing mechanism and a main master wheel, of a second master wheel connected to the main master wheel, and mounted to swing out of working position while so connected, said master wheels having individual shafts, the shaft of the main master wheel being connected to the shaft of the second master wheel for universal motion, the second wheel shaft having a ball-shaped end, a swing rod having a housing for said ball-shaped end of the second shaft, said housing having a ball to operate against said end to prevent endwise displace- '65 ual shafts, the shaft Of the main master Wheel /being connected to the shaft of the second master vhecl for universal motion, the second wheel shaft having a ball-shaped end, a swing rod having a housing for said ball-shaped'end of the second shaft, said housing having a ball to operate against said end to prevent endwise displacement of the second shaft, said swing rod being placed end to end with the second shaft, and means supporting the other end of the rod against axial displacement, including a screw tapped into the end of the rod, said screw having a rounded head fitted into a depression in a fixed part of the frame whereby the rod is pivotedfor its swinging movement, and means for securing said screw where adjusted, whereby the second shaft when operative is held tight in axial direction.

8. The combination with indexing mechanism and a main master/wheel, of a second master wheel connected to the main master wheel, and mounted to' swing out of working position while so connected, said master Wheels having individual shafts, the shaft of the main master wheel being connected to the shaft of the second master wheel for universal motion, the second wheelshaft having a ball-shaped end, a swing rod having a housing for said ball-shaped end of the second shaft, said housing having a ball to operate against said end to prevent endwise displacement of the second shaft, means co-operative with the first shaft, the swing rod, and with a fixed part of the framework to hold the second masterwheel shaft tight against axial displacement when in working position, a sliding mount adjacent to said rod, said mount having a projection upon which said rod is normally sustained, said rod having a peripheral groove to permit the rod and the second shaft-section to fall when said projection is brought beneath said groove, and a finger-piece upon said mount to manipulate the same, and a detent for holding the mount in either working or idle position.

9. The combination with indexing mechanism and a main master wheel, of a second master Wheel connected to the main master wheel, and mounted to swing out of working position while so connected, said master wheels having individter wheel for universal motion, a swing rod engaging the end of the second shaft, to prevent endwise displacement of the second shaft, means co-operative with the first shaft, the swing rod, and with a fixed part of the framework to hold the second master-wheel shaft against axial displacement when in working position, a mount adjacent to said rod, said mount having a projection upon which said rod is normally sustained, said rod having a peripheral groove to permit the rod and the second shaft-section to fall when said projection is brought beneath said groove, a finger-piece upon said mount to manipulate the same, a lug upon said mount, and a'projection upon said indexing mechanism to co-operate with said lug to prevent dropping of the swinging shafts while the indexing mechanism is in oper ation, and to prevent operation of the indexing mechanism during the dropping of the shafts.

10. The combination with indexing mechanism and a main master wheel, of a second master wheel connected to the main master wheel, and mounted to swing out of working position while so connected, said master wheels having individual shafts, the shaft of the main master wheel being connected to the shaft of the second master wheel for universal motion, a swing rod engaging the end of the second shaft means co operative with the first shaft, the swing rod, and with a fixed part of the framework to hold the second master-wheel shaft tight against axial displacement when in working position, a sliding mount adjacent to said rod, said mount having a projection upon which said rod is normally sustained, said rod having a peripheral groove to permit the rod and the second shaft-section to fall when said projection is brought beneath said groove, a finger-piece upon said mount to manipulate the same, and a detent for holding the f mount in either working or idle position, a spring being provided to draw the second master wheel out of effectiye position when released by the sliding movement of said mount.

11. The combination with a set of computing gears of different denominations and key-controlled means to operate the same, of a gearaligner normally in effective position, key-com trolled .means for effecting the withdrawal of said aligner preparatory to operation of the gears, a carriage being provided to effect relative movement between the set of gears and the aligner, to enable the latter to engage the gears in succession, and operating keys, said carriage having a truck upon which the gears are mounted, the carriage and truck being started in motion promptly with the first part of the up stroke of the operatingkey, and a carriage rack having a camming action upon the aligner, throwing the latter into mesh with the gears upon the movement of the carriage.

12; The combination with a set of computing gears of difierent denominations and means ineluding keys to operate the same, of a gearaligner, a latch normally holding the aligner in effective position, key-controlled means for with drawing the latch from said aligner preparatory to operation of the gears, a carriage being provided to effect relative movement between the set of gears and the aligner, to enable the latter to engage the gears in succession, said carriage having a truck upon which the gears are mounted, the truck being started in motion promptly with the first part of the up stroke of the operating key, said aligner forming part of a lever, a rack upon said carriage, the rack having a camming action upon the aligner-lever, throwing the aligner-into mesh with the gears at the completion of the return of the key to normal position, and means for returning said latch to normal posi tion, to maintain said aligner out of control of said rack.

13; The combination with a set of computing gears of different denominations and key-controlled means to operate the same, of a gearaligner normally in effective position, key-controlled means for releasing said aligner preparatory to operation of the gears, a carriage being provided to effect relative movement between the set of gears and the aligner, to enable the latter to engage the gears in succession, a rack being provided upon said carriage, and means controlled by said rack for restoring the aligner to normal position, said aligner forming a lever having .two arms, one of which carries the aligner, and the other of which is adjustable relatively thereto and carries a roll for co-operation with said rack.

14. The combination with a set of computing gears of different denominations and key-controlled means to operate the same, of a gearaligner normally in effective position, said aligner being releasable preparatory to operation of the gears, a carriage being provided to effect rt'zlative movement between the set of gears and e aligner, to enable the latter to engage the gears in succession, a rack being provided upon said carriage, means controlled by said rack for restoring the released aligner to normal effective position, an indexing mechanism, and a latch releasable by said indexing mechanism and normally latching said aligner in effective position I out of control of said rack.

15. In acomputing machine, the combination of numeral-keys, a pair of master gears operated by'the keys and constantly coupled together to operate simultaneously, and means to disable one master gear without disabling the other, said means including a slide operable to raise and lower one master gear into and out of working position 'while remaining positively connected to the other master gears 16. In a computing machine, the combination of a carriage having a totalizer with gears, a master wheel to rotate the gears seriatim, and

an aligner swingably mounted on the framework and,operated by the carriage to align the gears after each actuation by the master wheel.

17. In a computing machine, the combination of a travelingcarriage, a totalizer therefor havpart in unison, one of said master gears being secured to each part of the shaft to drive total- ,izers in unison, andmeans effective upon one shaft part to silence one totalizer by withdrawing its master gear therefrom while maintaining its connection to the other master gear.

19;In a computing machine, the combination ofa carriage, totalizers, numeral-keys, indexing mechanism, master wheels, means shiftable to silence one master wheel, and means controlled by said silencing means to prevent the operation of the indexing 'mechanism until the completion of the movement of said silencing means.

20. In a computing machine, the combination of a letter-spacing carriage, a. totalizer mbvable with the carriage and having gears, a series of numeral-keys, a master wheel driven by the keys to operate the gears seriatim, a bar that normally locks the aligned gears in the totalizer, means whereby the depression of a numeral-key with- 'draws said bar from the gears before rotation thereof by the master wheel,and means to put said bar under the control ofsaid carriage, to

' be restored to realign the gears during the letterable seriatim with the gears, and a lever mounted in the actuator frame'having an aligning cam at one end to contact with the gears, and having a roller to ride over the teeth'of the rack to vibrate the aligning cam at the opposite end of said lever into engagement with the gears, upon movement of the carriage due to the operation of the numeral keys.

22. The combination with set of computing gears for different denominations and key-controlled means to operate the same, of a gearaligner normally in effective position, key-controlled means for releasing said alignerpreparatory to operation of the gears, a carriage being provided to effect relative movement between the set of gears and the allgner, to enable the latter to engage the gears in succession, and means controlled by said carriage for restoring the aligner in advance of the full return of the key to normal position.

23. The combination with indexing mechanism and a main master wheel, of a second master wheel connected to the main" master wheel, and mounted to swing out of working position while so connected, said master wheels having individual shafts, the shaft of the main master wheel beingconnected to the shaft of the second master wheel for universal motion, the second wheel shaft having a ball-shaped end, a swing rod having a housing for said ball-shaped end of the second shaft, said housing having a ball to operate against said end to prevent endwise displacement of the second shaft, said swing rod being placed end to end with the second shaft, and means supj porting the end of the rod'against axial displacement.

24. In a computing machine, the combination of a carriage, totalizers, numeral-keys, indexing mechanism, master wheels, means shiftable to silence one master wheel, and means to prevent the operation of said silencing means during the operation of the indexing mechanism.

25. In combination a travelling carriage carrying a toothed rack, a totalizer with digit wheels and an aligner for the totalizer operative by the toothed rack as the carriage moves to align the wheels, keys and connections for operating the wheels, said keys also operative to release the aligner while the carriage is stationary.

26. In a computing machine, the combination of a travelling carriage, a rack and a pluralityof totalizers each totalizer including a series of gears, a master wheel for setting up digits in said totalizers, a swingable gear aligner on the machine framework and means on said aligner co- 2'7. The combination of a carriage, a master wheel, a single set of ten carriage-controlling numeral type keys, means for enabling any key to operate the. master wheel, a totalizer having a series of digit wheels and being settable alongthe carriage, a digit wheel aligner normally in eflective position, said aligner being timed co-ordi nately with the timing of the stroke of the master wheel, means controlled by the keys for withdrawing the aligner from the digit wheels preparatory to the operation of the master wheel, a carriage rack, a restoring element associated with said aligner, and movable into a notch in said rack upon release of the numeral key, -simultaneously with the withdrawal of the aligner from the digit wheels, said restoring element co-operative with the rack and carriage, for restoring the aligner to effective position, at the start of the return of the operated numeral key to normal, position, and means releasable by any key upon the subsequent printing stroke thereof, for

automatically latching the aligner in effective position.

O'I'I'O THIEME. 

